#include #include #include #include #include "linux_ppp.h" #include "triton.h" #include "log.h" #include "events.h" #include "ppp.h" #include "ppp_ipv6cp.h" #include "memdebug.h" struct recv_opt_t { struct list_head entry; struct ipv6cp_opt_hdr_t *hdr; int len; int state; struct ipv6cp_option_t *lopt; }; #define IPV6_DENY 0 #define IPV6_ALLOW 1 #define IPV6_PREFERE 2 #define IPV6_REQUIRE 3 #define START_TIMEOUT 60 static int conf_ipv6 = IPV6_ALLOW; static LIST_HEAD(option_handlers); static struct ppp_layer_t ipv6cp_layer; static void ipv6cp_layer_up(struct ppp_fsm_t*); static void ipv6cp_layer_down(struct ppp_fsm_t*); static void ipv6cp_layer_finished(struct ppp_fsm_t*); static int send_conf_req(struct ppp_fsm_t*); static void send_conf_ack(struct ppp_fsm_t*); static void send_conf_nak(struct ppp_fsm_t*); static void send_conf_rej(struct ppp_fsm_t*); static void ipv6cp_recv(struct ppp_handler_t*); static void ipv6cp_recv_proto_rej(struct ppp_handler_t*); static void send_term_req(struct ppp_fsm_t *fsm); static void send_term_ack(struct ppp_fsm_t *fsm); static void ipv6cp_options_init(struct ppp_ipv6cp_t *ipv6cp) { struct ipv6cp_option_t *lopt; struct ipv6cp_option_handler_t *h; ipv6cp->conf_req_len = sizeof(struct ipv6cp_hdr_t); list_for_each_entry(h,&option_handlers,entry) { lopt = h->init(ipv6cp); if (lopt) { lopt->h = h; list_add_tail(&lopt->entry, &ipv6cp->options); ipv6cp->conf_req_len += lopt->len; } } } static void ipv6cp_options_free(struct ppp_ipv6cp_t *ipv6cp) { struct ipv6cp_option_t *lopt; while (!list_empty(&ipv6cp->options)) { lopt = list_entry(ipv6cp->options.next, typeof(*lopt), entry); list_del(&lopt->entry); lopt->h->free(ipv6cp, lopt); } } static struct ppp_layer_data_t *ipv6cp_layer_init(struct ppp_t *ppp) { struct ppp_ipv6cp_t *ipv6cp = _malloc(sizeof(*ipv6cp)); memset(ipv6cp, 0, sizeof(*ipv6cp)); log_ppp_debug("ipv6cp_layer_init\n"); ipv6cp->ppp = ppp; ipv6cp->fsm.ppp = ppp; ipv6cp->hnd.proto = PPP_IPV6CP; ipv6cp->hnd.recv = ipv6cp_recv; ipv6cp->hnd.recv_proto_rej = ipv6cp_recv_proto_rej; ppp_register_unit_handler(ppp, &ipv6cp->hnd); ipv6cp->fsm.proto = PPP_IPV6CP; ppp_fsm_init(&ipv6cp->fsm); ipv6cp->fsm.layer_up = ipv6cp_layer_up; ipv6cp->fsm.layer_finished = ipv6cp_layer_finished; ipv6cp->fsm.layer_down = ipv6cp_layer_down; ipv6cp->fsm.send_conf_req = send_conf_req; ipv6cp->fsm.send_conf_ack = send_conf_ack; ipv6cp->fsm.send_conf_nak = send_conf_nak; ipv6cp->fsm.send_conf_rej = send_conf_rej; ipv6cp->fsm.send_term_req = send_term_req; ipv6cp->fsm.send_term_ack = send_term_ack; INIT_LIST_HEAD(&ipv6cp->options); INIT_LIST_HEAD(&ipv6cp->ropt_list); ipv6cp->ld.passive = conf_ipv6 == IPV6_ALLOW || conf_ipv6 == IPV6_DENY; return &ipv6cp->ld; } static void ipv6cp_start_timeout(struct triton_timer_t *t) { struct ppp_ipv6cp_t *ipv6cp = container_of(t, typeof(*ipv6cp), timeout); triton_timer_del(t); ppp_terminate(ipv6cp->ppp, TERM_USER_ERROR, 0); } int ipv6cp_layer_start(struct ppp_layer_data_t *ld) { struct ppp_ipv6cp_t *ipv6cp = container_of(ld, typeof(*ipv6cp), ld); log_ppp_debug("ipv6cp_layer_start\n"); ipv6cp_options_init(ipv6cp); ipv6cp->starting = 1; if (conf_ipv6 != IPV6_DENY) { if (ipv6cp->ld.passive) { ipv6cp->timeout.expire = ipv6cp_start_timeout; ipv6cp->timeout.expire_tv.tv_sec = START_TIMEOUT; triton_timer_add(ipv6cp->ppp->ctrl->ctx, &ipv6cp->timeout, 0); } else { ppp_fsm_lower_up(&ipv6cp->fsm); if (ppp_fsm_open(&ipv6cp->fsm)) return -1; } } return 0; } void ipv6cp_layer_finish(struct ppp_layer_data_t *ld) { struct ppp_ipv6cp_t *ipv6cp = container_of(ld, typeof(*ipv6cp), ld); log_ppp_debug("ipv6cp_layer_finish\n"); ipv6cp->fsm.fsm_state = FSM_Closed; log_ppp_debug("ipv6cp_layer_finished\n"); ppp_layer_finished(ipv6cp->ppp, &ipv6cp->ld); } void ipv6cp_layer_free(struct ppp_layer_data_t *ld) { struct ppp_ipv6cp_t *ipv6cp = container_of(ld, typeof(*ipv6cp), ld); log_ppp_debug("ipv6cp_layer_free\n"); ppp_unregister_handler(ipv6cp->ppp, &ipv6cp->hnd); ipv6cp_options_free(ipv6cp); ppp_fsm_free(&ipv6cp->fsm); if (ipv6cp->timeout.tpd) triton_timer_del(&ipv6cp->timeout); _free(ipv6cp); } static void __ipv6cp_layer_up(struct ppp_ipv6cp_t *ipv6cp) { log_ppp_debug("ipv6cp_layer_started\n"); if (!ipv6cp->started) { ipv6cp->started = 1; ppp_layer_started(ipv6cp->ppp, &ipv6cp->ld); } } static void ipv6cp_layer_up(struct ppp_fsm_t *fsm) { struct ppp_ipv6cp_t *ipv6cp = container_of(fsm, typeof(*ipv6cp), fsm); if (!ipv6cp->delay_ack) __ipv6cp_layer_up(ipv6cp); } static void ipv6cp_layer_finished(struct ppp_fsm_t *fsm) { struct ppp_ipv6cp_t *ipv6cp = container_of(fsm, typeof(*ipv6cp), fsm); log_ppp_debug("ipv6cp_layer_finished\n"); if (!ipv6cp->started) { if (conf_ipv6 == IPV6_REQUIRE) ppp_terminate(ipv6cp->ppp, TERM_USER_ERROR, 0); else ipv6cp->ld.passive = 1; } else if (!ipv6cp->ppp->terminating) ppp_terminate(ipv6cp->ppp, TERM_USER_ERROR, 0); } static void ipv6cp_layer_down(struct ppp_fsm_t *fsm) { struct ppp_ipv6cp_t *ipv6cp = container_of(fsm, typeof(*ipv6cp), fsm); log_ppp_debug("ipv6cp_layer_down\n"); ppp_fsm_close(fsm); } static void print_ropt(struct recv_opt_t *ropt) { int i; uint8_t *ptr = (uint8_t*)ropt->hdr; log_ppp_info2("<"); for (i = 0; i < ropt->len; i++) { log_ppp_info2(" %x", ptr[i]); } log_ppp_info2(" >"); } static int send_conf_req(struct ppp_fsm_t *fsm) { struct ppp_ipv6cp_t *ipv6cp = container_of(fsm, typeof(*ipv6cp), fsm); uint8_t *buf = _malloc(ipv6cp->conf_req_len), *ptr = buf; struct ipv6cp_hdr_t *ipv6cp_hdr = (struct ipv6cp_hdr_t*)ptr; struct ipv6cp_option_t *lopt; int n; ipv6cp_hdr->proto = htons(PPP_IPV6CP); ipv6cp_hdr->code = CONFREQ; ipv6cp_hdr->id = ipv6cp->fsm.id; ipv6cp_hdr->len = 0; ptr += sizeof(*ipv6cp_hdr); list_for_each_entry(lopt, &ipv6cp->options, entry) { n = lopt->h->send_conf_req(ipv6cp, lopt, ptr); if (n < 0) { if (n == IPV6CP_OPT_TERMACK) goto out; if (n == IPV6CP_OPT_CLOSE && conf_ipv6 != IPV6_REQUIRE) { ppp_fsm_close2(fsm); goto out; } _free(buf); return -1; } if (n) { ptr += n; lopt->print = 1; } else lopt->print = 0; } if (conf_ppp_verbose) { log_ppp_info2("send [IPV6CP ConfReq id=%x", ipv6cp_hdr->id); list_for_each_entry(lopt,&ipv6cp->options,entry) { if (lopt->print) { log_ppp_info2(" "); lopt->h->print(log_ppp_info2, lopt, NULL); } } log_ppp_info2("]\n"); } ipv6cp_hdr->len = htons(ptr - buf - 2); ppp_unit_send(ipv6cp->ppp, ipv6cp_hdr, ptr - buf); out: _free(buf); return 0; } static void send_conf_ack(struct ppp_fsm_t *fsm) { struct ppp_ipv6cp_t *ipv6cp = container_of(fsm, typeof(*ipv6cp), fsm); struct ipv6cp_hdr_t *hdr = (struct ipv6cp_hdr_t*)ipv6cp->ppp->buf; if (ipv6cp->delay_ack) { send_term_ack(fsm); return; } hdr->code = CONFACK; if (conf_ppp_verbose) log_ppp_info2("send [IPV6CP ConfAck id=%x]\n", ipv6cp->fsm.recv_id); ppp_unit_send(ipv6cp->ppp, hdr, ntohs(hdr->len) + 2); } static void send_conf_nak(struct ppp_fsm_t *fsm) { struct ppp_ipv6cp_t *ipv6cp = container_of(fsm, typeof(*ipv6cp), fsm); uint8_t *buf = _malloc(ipv6cp->conf_req_len), *ptr = buf, *ptr1; struct ipv6cp_hdr_t *ipv6cp_hdr = (struct ipv6cp_hdr_t*)ptr; struct recv_opt_t *ropt; if (conf_ppp_verbose) log_ppp_info2("send [IPV6CP ConfNak id=%x", ipv6cp->fsm.recv_id); ipv6cp_hdr->proto = htons(PPP_IPV6CP); ipv6cp_hdr->code = CONFNAK; ipv6cp_hdr->id = ipv6cp->fsm.recv_id; ipv6cp_hdr->len = 0; ptr += sizeof(*ipv6cp_hdr); list_for_each_entry(ropt, &ipv6cp->ropt_list, entry) { if (ropt->state == IPV6CP_OPT_NAK) { ptr1 = ptr; ptr += ropt->lopt->h->send_conf_nak(ipv6cp, ropt->lopt, ptr); } if (conf_ppp_verbose) { log_ppp_info2(" "); ropt->lopt->h->print(log_ppp_info2, ropt->lopt, ptr1); } } if (conf_ppp_verbose) log_ppp_info2("]\n"); ipv6cp_hdr->len = htons(ptr-buf-2); ppp_unit_send(ipv6cp->ppp, ipv6cp_hdr, ptr - buf); _free(buf); } static void send_conf_rej(struct ppp_fsm_t *fsm) { struct ppp_ipv6cp_t *ipv6cp = container_of(fsm, typeof(*ipv6cp), fsm); uint8_t *buf = _malloc(ipv6cp->ropt_len + sizeof(struct ipv6cp_hdr_t)), *ptr = buf; struct ipv6cp_hdr_t *ipv6cp_hdr = (struct ipv6cp_hdr_t*)ptr; struct recv_opt_t *ropt; if (conf_ppp_verbose) log_ppp_info2("send [IPV6CP ConfRej id=%x", ipv6cp->fsm.recv_id); ipv6cp_hdr->proto = htons(PPP_IPV6CP); ipv6cp_hdr->code = CONFREJ; ipv6cp_hdr->id = ipv6cp->fsm.recv_id; ipv6cp_hdr->len = 0; ptr += sizeof(*ipv6cp_hdr); list_for_each_entry(ropt, &ipv6cp->ropt_list, entry) { if (ropt->state == IPV6CP_OPT_REJ) { if (conf_ppp_verbose) { log_ppp_info2(" "); if (ropt->lopt) ropt->lopt->h->print(log_ppp_info2, ropt->lopt, (uint8_t*)ropt->hdr); else print_ropt(ropt); } memcpy(ptr, ropt->hdr, ropt->len); ptr += ropt->len; } } if (conf_ppp_verbose) log_ppp_info2("]\n"); ipv6cp_hdr->len = htons(ptr - buf - 2); ppp_unit_send(ipv6cp->ppp, ipv6cp_hdr, ptr-buf); _free(buf); } static int ipv6cp_recv_conf_req(struct ppp_ipv6cp_t *ipv6cp, uint8_t *data, int size) { struct ipv6cp_opt_hdr_t *hdr; struct recv_opt_t *ropt; struct ipv6cp_option_t *lopt; int r,ret = 1; ipv6cp->ropt_len = size; while (size > 0) { hdr = (struct ipv6cp_opt_hdr_t *)data; ropt = _malloc(sizeof(*ropt)); memset(ropt, 0, sizeof(*ropt)); if (hdr->len > size) ropt->len = size; else ropt->len = hdr->len; ropt->hdr = hdr; ropt->state = IPV6CP_OPT_NONE; list_add_tail(&ropt->entry, &ipv6cp->ropt_list); data += ropt->len; size -= ropt->len; } list_for_each_entry(lopt, &ipv6cp->options, entry) lopt->state=IPV6CP_OPT_NONE; if (conf_ppp_verbose) { log_ppp_info2("recv [IPV6CP ConfReq id=%x", ipv6cp->fsm.recv_id); list_for_each_entry(ropt, &ipv6cp->ropt_list, entry) { list_for_each_entry(lopt, &ipv6cp->options, entry) { if (lopt->id == ropt->hdr->id) { ropt->lopt = lopt; log_ppp_info2(" "); lopt->h->print(log_ppp_info2, lopt, (uint8_t*)ropt->hdr); break; } } if (!ropt->lopt) { log_ppp_info2(" "); print_ropt(ropt); } } log_ppp_info2("]\n"); } list_for_each_entry(ropt, &ipv6cp->ropt_list, entry) { list_for_each_entry(lopt, &ipv6cp->options, entry) { if (lopt->id == ropt->hdr->id) { r = lopt->h->recv_conf_req(ipv6cp, lopt, (uint8_t*)ropt->hdr); if (r == IPV6CP_OPT_TERMACK) { send_term_ack(&ipv6cp->fsm); return 0; } if (r == IPV6CP_OPT_CLOSE) { if (conf_ipv6 == IPV6_REQUIRE) ppp_terminate(ipv6cp->ppp, TERM_NAS_ERROR, 0); else lcp_send_proto_rej(ipv6cp->ppp, PPP_IPV6CP); return 0; } if (ipv6cp->ppp->stop_time) return -1; lopt->state = r; ropt->state = r; ropt->lopt = lopt; if (r < ret) ret = r; break; } } if (!ropt->lopt) { ropt->state = IPV6CP_OPT_REJ; ret = IPV6CP_OPT_REJ; } } /*list_for_each_entry(lopt,&ipv6cp->options,entry) { if (lopt->state==IPV6CP_OPT_NONE) { r=lopt->h->recv_conf_req(ipv6cp,lopt,NULL); lopt->state=r; if (rropt_list)) { ropt = list_entry(ipv6cp->ropt_list.next, typeof(*ropt), entry); list_del(&ropt->entry); _free(ropt); } } static int ipv6cp_recv_conf_rej(struct ppp_ipv6cp_t *ipv6cp, uint8_t *data, int size) { struct ipv6cp_opt_hdr_t *hdr; struct ipv6cp_option_t *lopt; int res = 0; if (conf_ppp_verbose) log_ppp_info2("recv [IPV6CP ConfRej id=%x", ipv6cp->fsm.recv_id); /*if (ipv6cp->fsm.recv_id != ipv6cp->fsm.id) { if (conf_ppp_verbose) log_ppp_info2(": id mismatch ]\n"); return 0; }*/ while (size > 0) { hdr = (struct ipv6cp_opt_hdr_t *)data; list_for_each_entry(lopt, &ipv6cp->options, entry) { if (lopt->id == hdr->id) { if (!lopt->h->recv_conf_rej) res = -1; else if (lopt->h->recv_conf_rej(ipv6cp, lopt, data)) res = -1; break; } } data += hdr->len; size -= hdr->len; } if (conf_ppp_verbose) log_ppp_info2("]\n"); return res; } static int ipv6cp_recv_conf_nak(struct ppp_ipv6cp_t *ipv6cp, uint8_t *data, int size) { struct ipv6cp_opt_hdr_t *hdr; struct ipv6cp_option_t *lopt; int res = 0; if (conf_ppp_verbose) log_ppp_info2("recv [IPV6CP ConfNak id=%x", ipv6cp->fsm.recv_id); /*if (ipv6cp->fsm.recv_id != ipv6cp->fsm.id) { if (conf_ppp_verbose) log_ppp_info2(": id mismatch ]\n"); return 0; }*/ while (size > 0) { hdr = (struct ipv6cp_opt_hdr_t *)data; list_for_each_entry(lopt, &ipv6cp->options, entry) { if (lopt->id == hdr->id) { if (conf_ppp_verbose) { log_ppp_info2(" "); lopt->h->print(log_ppp_info2,lopt,data); } if (lopt->h->recv_conf_nak && lopt->h->recv_conf_nak(ipv6cp, lopt, data)) res =- 1; break; } } data += hdr->len; size -= hdr->len; } if (conf_ppp_verbose) log_ppp_info2("]\n"); return res; } static int ipv6cp_recv_conf_ack(struct ppp_ipv6cp_t *ipv6cp, uint8_t *data, int size) { struct ipv6cp_opt_hdr_t *hdr; struct ipv6cp_option_t *lopt; int res = 0; if (conf_ppp_verbose) log_ppp_info2("recv [IPV6CP ConfAck id=%x", ipv6cp->fsm.recv_id); /*if (ipv6cp->fsm.recv_id != ipv6cp->fsm.id) { if (conf_ppp_verbose) log_ppp_info2(": id mismatch ]\n"); return 0; }*/ while (size > 0) { hdr = (struct ipv6cp_opt_hdr_t *)data; list_for_each_entry(lopt, &ipv6cp->options, entry) { if (lopt->id == hdr->id) { if (conf_ppp_verbose) { log_ppp_info2(" "); lopt->h->print(log_ppp_info2, lopt, data); } if (!lopt->h->recv_conf_ack) break; if (lopt->h->recv_conf_ack(ipv6cp, lopt, data)) res = -1; break; } } data += hdr->len; size -= hdr->len; } if (conf_ppp_verbose) log_ppp_info2("]\n"); return res; } static void send_term_req(struct ppp_fsm_t *fsm) { struct ppp_ipv6cp_t *ipv6cp = container_of(fsm, typeof(*ipv6cp), fsm); struct ipv6cp_hdr_t hdr = { .proto = htons(PPP_IPV6CP), .code = TERMREQ, .id = ++ipv6cp->fsm.id, .len = htons(4), }; if (conf_ppp_verbose) log_ppp_info2("send [IPV6CP TermReq id=%i]\n", hdr.id); ppp_unit_send(ipv6cp->ppp, &hdr, 6); } static void send_term_ack(struct ppp_fsm_t *fsm) { struct ppp_ipv6cp_t *ipv6cp = container_of(fsm, typeof(*ipv6cp), fsm); struct ipv6cp_hdr_t hdr = { .proto = htons(PPP_IPV6CP), .code = TERMACK, .id = ipv6cp->fsm.recv_id, .len = htons(4), }; if (conf_ppp_verbose) log_ppp_info2("send [IPV6CP TermAck id=%i]\n", hdr.id); ppp_unit_send(ipv6cp->ppp, &hdr, 6); } static void ipv6cp_recv(struct ppp_handler_t*h) { struct ipv6cp_hdr_t *hdr; struct ppp_ipv6cp_t *ipv6cp = container_of(h, typeof(*ipv6cp), hnd); int r; int delay_ack = ipv6cp->delay_ack; if (!ipv6cp->starting || ipv6cp->fsm.fsm_state == FSM_Closed || ipv6cp->ppp->terminating || conf_ipv6 == IPV6_DENY) { if (conf_ppp_verbose) log_ppp_warn("IPV6CP: discarding packet\n"); if (ipv6cp->ppp->terminating) return; if (ipv6cp->fsm.fsm_state == FSM_Closed || conf_ipv6 == IPV6_DENY) lcp_send_proto_rej(ipv6cp->ppp, PPP_IPV6CP); return; } if (ipv6cp->ppp->buf_size < PPP_HEADERLEN + 2) { log_ppp_warn("IPV6CP: short packet received\n"); return; } hdr = (struct ipv6cp_hdr_t *)ipv6cp->ppp->buf; if (ntohs(hdr->len) < PPP_HEADERLEN) { log_ppp_warn("IPV6CP: short packet received\n"); return; } if ((hdr->code == CONFACK || hdr->code == CONFNAK || hdr->code == CONFREJ) && hdr->id != ipv6cp->fsm.id) return; ipv6cp->fsm.recv_id = hdr->id; switch(hdr->code) { case CONFREQ: r = ipv6cp_recv_conf_req(ipv6cp,(uint8_t*)(hdr + 1), ntohs(hdr->len) - PPP_HDRLEN); if (ipv6cp->ppp->stop_time) { ipv6cp_free_conf_req(ipv6cp); return; } if (r && ipv6cp->ld.passive) { ipv6cp->ld.passive = 0; ppp_fsm_lower_up(&ipv6cp->fsm); ppp_fsm_open(&ipv6cp->fsm); triton_timer_del(&ipv6cp->timeout); } if (delay_ack && !ipv6cp->delay_ack) __ipv6cp_layer_up(ipv6cp); if (ipv6cp->started || delay_ack) { if (r == IPV6CP_OPT_ACK) send_conf_ack(&ipv6cp->fsm); else r = IPV6CP_OPT_FAIL; } else { switch(r) { case IPV6CP_OPT_ACK: ppp_fsm_recv_conf_req_ack(&ipv6cp->fsm); break; case IPV6CP_OPT_NAK: ppp_fsm_recv_conf_req_nak(&ipv6cp->fsm); break; case IPV6CP_OPT_REJ: ppp_fsm_recv_conf_req_rej(&ipv6cp->fsm); break; } } ipv6cp_free_conf_req(ipv6cp); if (r == IPV6CP_OPT_FAIL) ppp_terminate(ipv6cp->ppp, TERM_USER_ERROR, 0); break; case CONFACK: if (ipv6cp_recv_conf_ack(ipv6cp,(uint8_t*)(hdr + 1), ntohs(hdr->len) - PPP_HDRLEN)) ppp_terminate(ipv6cp->ppp, TERM_USER_ERROR, 0); else ppp_fsm_recv_conf_ack(&ipv6cp->fsm); break; case CONFNAK: ipv6cp_recv_conf_nak(ipv6cp,(uint8_t*)(hdr + 1), ntohs(hdr->len) - PPP_HDRLEN); ppp_fsm_recv_conf_rej(&ipv6cp->fsm); break; case CONFREJ: if (ipv6cp_recv_conf_rej(ipv6cp, (uint8_t*)(hdr + 1), ntohs(hdr->len) - PPP_HDRLEN)) ppp_terminate(ipv6cp->ppp, TERM_USER_ERROR, 0); else ppp_fsm_recv_conf_rej(&ipv6cp->fsm); break; case TERMREQ: if (conf_ppp_verbose) log_ppp_info2("recv [IPV6CP TermReq id=%x]\n", hdr->id); ppp_fsm_recv_term_req(&ipv6cp->fsm); ppp_terminate(ipv6cp->ppp, TERM_USER_REQUEST, 0); break; case TERMACK: if (conf_ppp_verbose) log_ppp_info2("recv [IPV6CP TermAck id=%x]\n", hdr->id); //ppp_fsm_recv_term_ack(&ipv6cp->fsm); //ppp_terminate(ipv6cp->ppp, 0); break; case CODEREJ: if (conf_ppp_verbose) log_ppp_info2("recv [IPV6CP CodeRej id=%x]\n", hdr->id); ppp_fsm_recv_code_rej_bad(&ipv6cp->fsm); break; default: ppp_fsm_recv_unk(&ipv6cp->fsm); break; } } static void ipv6cp_recv_proto_rej(struct ppp_handler_t*h) { struct ppp_ipv6cp_t *ipv6cp = container_of(h, typeof(*ipv6cp), hnd); if (ipv6cp->fsm.fsm_state == FSM_Initial || ipv6cp->fsm.fsm_state == FSM_Closed) return; ppp_fsm_lower_down(&ipv6cp->fsm); ppp_fsm_close(&ipv6cp->fsm); } int ipv6cp_option_register(struct ipv6cp_option_handler_t *h) { /*struct ipv6cp_option_drv_t *p; list_for_each_entry(p,option_drv_list,entry) if (p->id==h->id) return -1;*/ list_add_tail(&h->entry, &option_handlers); return 0; } struct ipv6cp_option_t *ipv6cp_find_option(struct ppp_t *ppp, struct ipv6cp_option_handler_t *h) { struct ppp_ipv6cp_t *ipv6cp = container_of(ppp_find_layer_data(ppp, &ipv6cp_layer), typeof(*ipv6cp), ld); struct ipv6cp_option_t *opt; list_for_each_entry(opt, &ipv6cp->options, entry) if (opt->h == h) return opt; log_emerg("ipv6cp: BUG: option not found\n"); abort(); } static struct ppp_layer_t ipv6cp_layer = { .init = ipv6cp_layer_init, .start = ipv6cp_layer_start, .finish = ipv6cp_layer_finish, .free = ipv6cp_layer_free, }; static void load_config(void) { const char *opt; opt = conf_get_opt("ppp", "ipv6"); if (opt) { if (!strcmp(opt, "deny")) conf_ipv6 = IPV6_DENY; else if (!strcmp(opt, "allow")) conf_ipv6 = IPV6_ALLOW; else if (!strcmp(opt, "prefere")) conf_ipv6 = IPV6_PREFERE; else if (!strcmp(opt, "require")) conf_ipv6 = IPV6_REQUIRE; else conf_ipv6 = atoi(opt); } } static void ipv6cp_init(void) { load_config(); triton_event_register_handler(EV_CONFIG_RELOAD, (triton_event_func)load_config); ppp_register_layer("ipv6cp", &ipv6cp_layer); } DEFINE_INIT(5, ipv6cp_init);